if(!dojo._hasResource["dojox.grid.Grid"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dojox.grid.Grid"] = true;
dojo.provide("dojox.grid.Grid");
dojo.require("dojox.grid.VirtualGrid");
dojo.require("dojox.grid._data.model");
dojo.require("dojox.grid._data.editors");
dojo.require("dojox.grid._data.dijitEditors");
// FIXME:
// we are at the wrong location!
dojo.declare('dojox.Grid', dojox.VirtualGrid, {
// summary:
// A grid widget with virtual scrolling, cell editing, complex rows,
// sorting, fixed columns, sizeable columns, etc.
// description:
// Grid is a subclass of VirtualGrid, providing binding to a data
// store.
// example:
// define the grid structure:
// | var structure = [ // array of view objects
// | { cells: [// array of rows, a row is an array of cells
// | [ { name: "Alpha", width: 6 },
// | { name: "Beta" },
// | { name: "Gamma", get: formatFunction }
// | ]
// | ]}
// | ];
//
// define a grid data model
// | var model = new dojox.grid.data.table(null, data);
// |
// |
//
// model:
// string or object grid data model
model: 'dojox.grid.data.Table',
// life cycle
postCreate: function(){
if(this.model){
var m = this.model;
if(dojo.isString(m)){
m = dojo.getObject(m);
}
this.model = (dojo.isFunction(m)) ? new m() : m;
this._setModel(this.model);
}
this.inherited(arguments);
},
destroy: function(){
this.setModel(null);
this.inherited(arguments);
},
// structure
_structureChanged: function() {
this.indexCellFields();
this.inherited(arguments);
},
// model
_setModel: function(inModel){
// if(!inModel){ return; }
this.model = inModel;
if(this.model){
this.model.observer(this);
this.model.measure();
this.indexCellFields();
}
},
setModel: function(inModel){
// summary:
// Set the grid's data model
// inModel: Object
// Model object, usually an instance of a dojox.grid.data.Model
// subclass
if(this.model){
this.model.notObserver(this);
}
this._setModel(inModel);
},
get: function(inRowIndex){
// summary: data socket (called in cell's context)
return this.grid.model.getDatum(inRowIndex, this.fieldIndex);
},
// model modifications
modelAllChange: function(){
this.rowCount = (this.model ? this.model.getRowCount() : 0);
this.updateRowCount(this.rowCount);
},
modelRowChange: function(inData, inRowIndex){
this.updateRow(inRowIndex);
},
modelDatumChange: function(inDatum, inRowIndex, inFieldIndex){
this.updateRow(inRowIndex);
},
modelFieldsChange: function() {
this.indexCellFields();
this.render();
},
// model insertion
modelInsertion: function(inRowIndex){
this.updateRowCount(this.model.getRowCount());
},
// model removal
modelRemoval: function(inKeys){
this.updateRowCount(this.model.getRowCount());
},
// cells
getCellName: function(inCell){
var v = this.model.fields.values, i = inCell.fieldIndex;
return i>=0 && i 0 ? 1 : -1);
},
sort: function(){
this.edit.apply();
this.model.sort(this.getSortField());
},
// row editing
addRow: function(inRowData, inIndex){
this.edit.apply();
var i = inIndex || -1;
if(i<0){
i = this.selection.getFirstSelected() || 0;
}
if(i<0){
i = 0;
}
this.model.insert(inRowData, i);
this.model.beginModifyRow(i);
// begin editing row
// FIXME: add to edit
for(var j=0, c; ((c=this.getCell(j)) && !c.editor); j++){}
if(c&&c.editor){
this.edit.setEditCell(c, i);
this.focus.setFocusCell(c, i);
}else{
this.focus.setFocusCell(this.getCell(0), i);
}
},
removeSelectedRows: function(){
this.edit.apply();
var s = this.selection.getSelected();
if(s.length){
this.model.remove(s);
this.selection.clear();
}
},
//: protected
// editing
canEdit: function(inCell, inRowIndex){
// summary:
// Determines if a given cell may be edited
// inCell: Object
// A grid cell
// inRowIndex: Integer
// Grid row index
// returns: Boolean
// True if given cell may be edited
return (this.model.canModify ? this.model.canModify(inRowIndex) : true);
},
doStartEdit: function(inCell, inRowIndex){
this.model.beginModifyRow(inRowIndex);
this.onStartEdit(inCell, inRowIndex);
},
doApplyCellEdit: function(inValue, inRowIndex, inFieldIndex){
this.model.setDatum(inValue, inRowIndex, inFieldIndex);
this.onApplyCellEdit(inValue, inRowIndex, inFieldIndex);
},
doCancelEdit: function(inRowIndex){
this.model.cancelModifyRow(inRowIndex);
this.onCancelEdit.apply(this, arguments);
},
doApplyEdit: function(inRowIndex){
this.model.endModifyRow(inRowIndex);
this.onApplyEdit(inRowIndex);
},
styleRowState: function(inRow){
// summary: Perform row styling
if(this.model.getState){
var states=this.model.getState(inRow.index), c='';
for(var i=0, ss=["inflight", "error", "inserting"], s; s=ss[i]; i++){
if(states[s]){
c = ' dojoxGrid-row-' + s;
break;
}
}
inRow.customClasses += c;
}
},
onStyleRow: function(inRow){
this.styleRowState(inRow);
this.inherited(arguments);
}
});
dojox.Grid.markupFactory = function(props, node, ctor){
// handle setting up a data model for a store if one
// isn't provided. There are some caveats:
// * we only really handle dojo.data sources well. They're the future
// so it's no big deal, but it's something to be aware of.
// * I'm pretty sure that colgroup introspection is missing some of
// the available settable properties.
// * No handling of cell formatting and content getting is done
var d = dojo;
var widthFromAttr = function(n){
var w = d.attr(n, "width")||"auto";
if((w != "auto")&&(w.substr(-2) != "em")){
w = parseInt(w)+"px";
}
return w;
}
if(!props.model && d.hasAttr(node, "store")){
// if a model isn't specified and we point to a store, assume
// we're also folding the definition for a model up into the
// inline ctor for the Grid. This will then take properties
// like "query", "rowsPerPage", and "clientSort" from the grid
// definition.
var mNode = node.cloneNode(false);
d.attr(mNode, {
"jsId": null,
"dojoType": d.attr(node, "dataModelClass") || "dojox.grid.data.DojoData"
});
props.model = d.parser.instantiate([mNode])[0];
}
// if(!props.model){ console.debug("no model!"); }
// if a structure isn't referenced, do we have enough
// data to try to build one automatically?
if( !props.structure &&
node.nodeName.toLowerCase() == "table"){
// try to discover a structure
props.structure = d.query("> colgroup", node).map(function(cg){
var sv = d.attr(cg, "span");
var v = {
noscroll: (d.attr(cg, "noscroll") == "true") ? true : false,
__span: (!!sv ? parseInt(sv) : 1),
cells: []
};
if(d.hasAttr(cg, "width")){
v.width = widthFromAttr(cg);
}
return v; // for vendetta
});
if(!props.structure.length){
props.structure.push({
__span: Infinity,
cells: [] // catch-all view
});
}
// check to see if we're gonna have more than one view
// for each tr in our th, create a row of cells
d.query("thead > tr", node).forEach(function(tr, tr_idx){
var cellCount = 0;
var viewIdx = 0;
var lastViewIdx;
var cView = null;
d.query("> th", tr).map(function(th){
// what view will this cell go into?
// NOTE:
// to prevent extraneous iteration, we start counters over
// for each row, incrementing over the surface area of the
// structure that colgroup processing generates and
// creating cell objects for each to place into those
// cell groups. There's a lot of state-keepking logic
// here, but it is what it has to be.
if(!cView){ // current view book keeping
lastViewIdx = 0;
cView = props.structure[0];
}else if(cellCount >= (lastViewIdx+cView.__span)){
viewIdx++;
// move to allocating things into the next view
lastViewIdx += cView.__span;
lastView = cView;
cView = props.structure[viewIdx];
}
// actually define the cell from what markup hands us
var cell = {
name: d.trim(d.attr(th, "name")||th.innerHTML),
field: d.trim(d.attr(th, "field")||""),
colSpan: parseInt(d.attr(th, "colspan")||1)
};
cellCount += cell.colSpan;
cell.field = cell.field||cell.name;
cell.width = widthFromAttr(th);
if(!cView.cells[tr_idx]){
cView.cells[tr_idx] = [];
}
cView.cells[tr_idx].push(cell);
});
});
// console.debug(dojo.toJson(props.structure, true));
}
return new dojox.Grid(props, node);
}
// alias us to the right location
dojox.grid.Grid = dojox.Grid;
}
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